%0 Journal Article
%A Bourgon, Nicolas
%A Jaouen, Klervia
%A Bacon, Anne-Marie
%A Jochum, Klaus Peter
%A Dufour, Elise
%A Duringer, Philippe
%A Ponche, Jean-Luc
%A Joannes-Boyau, Renaud
%A Boesch, Quentin
%A Antoine, Pierre-Olivier
%A Hullot, Manon
%A Weis, Ulrike
%A Schulz-Kornas, Ellen
%A Trost, Manuel
%A Fiorillo, Denis
%A Demeter, Fabrice
%A Patole-Edoumba, Elise
%A Shackelford, Laura L.
%A Dunn, Tyler E.
%A Zachwieja, Alexandra
%A Duangthongchit, Somoh
%A Sayavonkhamdy, Thongsa
%A Sichanthongtip, Phonephanh
%A Sihanam, Daovee
%A Souksavatdy, Viengkeo
%A Hublin, Jean-Jacques
%A Tütken, Thomas
%+ Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Max Planck Society
The Leipzig School of Human Origins (IMPRS), Max Planck Institute for Evolutionary Anthropology, Max Planck Society
Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Max Planck Society
Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Max Planck Society
Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Max Planck Society
Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Max Planck Society
%T Zinc isotopes in Late Pleistocene fossil teeth from a Southeast Asian cave setting preserve paleodietary information  : 
%G eng
%U https://hdl.handle.net/21.11116/0000-0005-AD0A-E
%R 10.1073/pnas.1911744117
%7 2020-02-18
%D 2020
%8 03.03.2020
%* Review method: peer-reviewed
%X Dietary habits, especially meat consumption, represent a key aspect in the behavior and evolution of fossil hominin species. Here, we explore zinc (Zn) isotope ratios in tooth enamel of fossil mammals. We show discrimination between different trophic levels and demonstrate that Zn isotopes could prove useful in paleodietary studies of fossil hominin, or other mammalian species, to assess their consumption of animal versus plant resources. We also demonstrate the high preservation potential of pristine diet-related Zn isotope ratios, even under tropical conditions with poor collagen preservation, such as the studied depositional context in Southeast Asia. However, assessing the preservation of original δ66Zn values is required for each fossil site as diagenesis may vary across and even within taphonomic settings.Stable carbon and nitrogen isotope ratios of collagen from bone and dentin have frequently been used for dietary reconstruction, but this method is limited by protein preservation. Isotopes of the trace element zinc (Zn) in bioapatite constitute a promising proxy to infer dietary information from extant and extinct vertebrates. The 66Zn/64Zn ratio (expressed as δ66Zn value) shows an enrichment of the heavy isotope in mammals along each trophic step. However, preservation of diet-related δ66Zn values in fossil teeth has not been assessed yet. Here, we analyzed enamel of fossil teeth from the Late Pleistocene (38.4–}13.5 ka) mammalian assemblage of the Tam Hay Marklot (THM) cave in northeastern Laos, to reconstruct the food web and assess the preservation of original δ66Zn values. Distinct enamel δ66Zn values of the fossil taxa (δ66Zncarnivore lt; δ66Znomnivore lt; δ66Znherbivore) according to their expected feeding habits were observed, with a trophic carnivore-herbivore spacing of +0.60{‰ and omnivores having intermediate values. Zn and trace element concentration profiles similar to those of modern teeth also indicate minimal impact of diagenesis on the enamel. While further work is needed to explore preservation for settings with different taphonomic conditions, the diet-related δ66Zn values in fossil enamel from THM cave suggest an excellent long-term preservation potential, even under tropical conditions that are well known to be adverse for collagen preservation. Zinc isotopes could thus provide a new tool to assess the diet of fossil hominins and associated fauna, as well as trophic relationships in past food webs.
%K zinc; stable isotopes; diagenesis; trophic ecology; diet
%J Proceedings of the National Academy of Sciences
%V 117
%N 9
%& 4431
%P 4431 - 4433
%I National Academy of Sciences
%C Washington
%@ 0027-8424